{"paper_id":"24fe4acb-ddca-47f6-af2c-c0c8613dc5e7","body_text":"Abstract\nBackground Mathematical models that describe sequence-function relationships are widely used in computational biology. A key challenge when interpreting these models is that their parameters are not uniquely determined, i.e., many different parameter choices can encode the same sequence-function landscape. These ambiguities, which are known as “gauge freedoms,” must be removed before parameter values can be meaningfully interpreted. Doing this requires imposing additional mathematical constraints on parameter values, a procedure called “fixing the gauge.” We recently developed mathematical methods for fixing the gauge of a large class of commonly used models, but the direct computational implementation of these methods is often impractical due to the need for a projection matrix whose size scales quadratically with the number of parameters.\nResults Here we introduce GaugeFixer, a Python package that exploits the specific mathematical structure of gauge-fixing projections to achieve linear scaling in both time and memory. This dramatically increases efficiency, enabling application to models with millions of parameters. As one application, we analyzed the local structure of peaks in an empirical fitness landscape for translation initiation. GaugeFixer reveals striking similarities, but also fine-scaled variation, in ribosome binding preferences at different positions relative to the start codon, thereby aiding the interpretation of an otherwise unwieldy fitness landscape.\nConclusions GaugeFixer thus fills an unmet need in the computational tools available for the biological interpretation of sequence-function relationships.\nCompeting Interest Statement\nThe authors have declared no competing interest.\nFootnotes\nText revised for clarity and completeness. Figure 1 was also split into 3 figures.\nList of Abbreviations\n- 5’UTR\n- 5’ untranslated region\n- DNA\n- deoxyribonucleic acid\n- RNA\n- ribonucleic acid\n- SD\n- Shine-Dalgarno","source_license":"CC-BY-4.0","license_restricted":false}